Improved energy transfer model for mechanistic scale-up of stirred media mills

  • Wet-operated stirred media mills are commonly used in the field of fine and ultra-fine grinding. Depending on the application, there are different mill geometries, sizes and mill equipment materials of which the grinding chamber lining and the stirrer are made. Increasing energy prices demand an energy-efficient mill operation for a desired product, which can be achieved with mechanistic stress models. Here, besides the mill geometry and volume, the process parameters and various energy-transfer-coefficients are of importance. In this work, the impact of different mill equipment materials affecting the mill-related-energy-transfer-coefficients on performance prediction and scale-up using the advanced stress model are investigated. It was found that the mill-related-energy-transfer-coefficients as well as the improved grinding-media-energy-transfer-coefficients have a significant effect on the prediction precision of the comminution times and specific energies for chosen target particle sizes.

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Metadaten
Author:David Sterling, Sandra Breitung-FaesORCiD, Arno Kwade
DOI:https://doi.org/10.1016/j.powtec.2024.119978
ISSN:0032-5910
Parent Title (English):Powder Technology
Publisher:Elsevier BV
Document Type:Article
Language:English
Reviewed:Nicht begutachtet/Not reviewed
Release Date:2024/08/14
Tag:Advanced stress model; Energy efficiency; Energy transfer coefficient; Mechanistic model; Mill equipment materials; Scale up; Stirred media mill
Volume:444
Article Number:119978
Pagenumber:14
institutes:Fakultät Verfahrenstechnik
Research Themes:Materialien & Produktionstechnik
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